CA1287958C

CA1287958C - Apparatus for reducing hollow plastic articles

Info

Publication number: CA1287958C
Application number: CA000561980A
Authority: CA
Inventors: Frank William Delfer Iii
Original assignee: Husky Injection Molding Systems Ltd
Current assignee: Husky Injection Molding Systems Ltd
Priority date: 1987-03-23
Filing date: 1988-03-21
Publication date: 1991-08-27
Anticipated expiration: 2008-08-27
Also published as: JPH044129B2; JPS63256413A; EP0283644B1; DE3886076D1; ES2049222T3; DE3886076T3; ATE98155T1; GR3021455T3; ES2049222T5; US4721452A; EP0283644A3; EP0283644B2; EP0283644A2; DE3886076T2

Abstract

ABSTRACT OF THE DISCLOSURE
The apparatus includes a carrier plate cooperating with an injection molding machine and having at least two sets of cavities therein for cooling the hollow plastic articles, with the number of cavities corresponding to a multiple of at least two times the number of hollow plastic articles produced in an injection molding cycle. The apparatus also includes means for aligning one set at a time of said carrier plate cavities to juxtapose said set of cavities with the hollow plastic articles formed in an injection molding cycle, and means for transferring said hollow plastic articles to said juxtaposed cavities.

Description

3~ .5~

BACKGROUND OF THE INV~NTION
-The present invention relates to the art of inJection molding hollow plastic articles, especially hollow plastic articles which are subsequently reheated and blow molded into containers isuch as oriented hollow plastic containers. Polyethylene terephthalate (PET) is typical of the plastic material used.
The in~ection molded hollow plastic articles produced are preforms which are further processedO
10__Natural~y~_a hi~ rate of production _s important in commercial operations, and the rate at which the injection molding cycle can produce preforms is limited by the time taken to cool the preforms sufficiently to allow post molding handling without damage to the preform.
The hollow plastic articles or preforms produced in the injection molding cycle generally have relatively thick walls, typically on the or~er of 0.060 to 0.160 inch, and are moIdea with PET resin at relatively high temperatures, typically o the order of 510F to 580F.
Consequently, after removal from the mold the hollow plastic articles must be cooled sufficiently to prevent their deformation or adhesion to one another. However, their thick wall acts as an insulator tending to trap heat inside the wall. Cooling the article in the mold i -2 . . - : , , -:

~6-3~8 by means of its contact with the cooled mold surfaces quickly chills the inner and outer skins, but mold cooling will remove the heat trapped within the wall only by keeping the article in the mold for an extended period of time. Naturally, this is economically prohibitive.
Initially cooling the molded articles skin is su~ficient to permit ejection from the mold without damage, but additional cooling is then immediately -----_______1 Q re~uired-to-~emn~ ~dd;~ional he~t a~ it~ ~Qnduct~d~
the skin. If the additional cooling were omitted, the skin temperature would rise and cause the molded articles to stick together, to become prone to surface damage, to bend, or warp, and or to crystallize.
Naturally, this i~ unacceptable.
IJ.S. Patents 4,527,970 to Murley and 4,586,891 to - Ichizawa et al. cool the molded articles in the mold, followed by ejection and dropping onto a conveyor which transports the articles through an air cooled chamber.
The mold cooling is sufficient to prevent the articles from sticking together as they drop onto the conveyor and the addielonal-cooling provided downstream removes remaining heat in the thick walls. ~owever, t~e machines dre cumber30me and not entirely reliable.
2S Also, the parts lose their orientation and must be unscrambled before downs~ream blowing operation.

. ' ~. ': ' ' : ` ' ~ .': ' :

. .
- : . ', ~: - : ~ "
- . . . :; . .

, - . . .

795~

Additional approaches to this problem are shown in U.S. Pa~ents 4,~39,133 to Rees et al and 4,449,913 to Krishnakumar et al. These Patents show turret type injec~ion molding systems wherein one of the turret stations in the operating cycle is used for the additional cooling. This approach will speed up the molding cycle, but it requires a dedicated machine with the resultant disadvantage of high cost. In addition, there is a reduced flexibility for producing different sized molded articles.
A horizontal injection molding system has been provided with a molded article transporter or robot which carried the articles f~om the mold in cooled tubes. U.S~ Patent 4,592,719 to Bellehache et al shows air cooled tubes, and U.S. Patent 4,690,633 to Schad et al shows water cooled tubes which are tapered to maintain good surface contact with the molded articles as they shrink during cooling. This latter approach especially has effectively further reduced the time re~uired for mold cooling and increased the production rate. However, the overall molding cycle has now been reduced to the point that there is insufficient time left for the molded articles to be completely cooled in the transporter or robot before . ~ ''' ' : ~ ' ' ' 7~35~3 it is needed to retrieve the molded articles from the next molding cycle. In order not to delay the molding cycle, the molded articles may be discharged from the transporter into another cooling device downstream.
Naturally, this incurs additional cost, but also disadvantageously exposes the molded articles to incrèased risk of damage.
U.S. Patent 4,209,290 to Rees et al shows a vertical machine including an air cooled molded article transfer box to carry the partially cooled articles from the mold to the discharge station. The article~ are hung vertically by their open ends which helps prevent bending of the articles during this cooling stage. However, this device has the capacity to handle the output from only one molding cycle thus limiting the amount of cooling that can be con-veniently accomplished before the next molding system is completed.
The present invention seeks to provide an apparatus for producing hollow plastic articles by injection molding enabling the attainment of a rapid operating cycle with extended cooling of the hollow articles.
The present invention also seeks to provide an apparatus as aforesaid which permits rapid injection molding cycles without the necessity for extended cooling time in the injection mold.

.. . , . . - ~ -, , . . ` . . .

3.~

Still further the present invention seeks to provide an apparatus as aforesaid using a transporter or carrier plate cooperating with an injection mold for extended cooling of hollow plastic articles formed therein accepting the articles from more than one injecti.on molding cycle.
Advantages of the present invention will appear hereinafter.
~ n accordance with the invention it has now been found that sought after requirements and advantages may be readily obtained and an improved apparatus provided for producing hollow plastic articles.
The apparatus of the present invention comprises:
an injection molding machine including a first mold portion having at least one cavity therein and a second mold portion having at least one elongate core seating in said cavi.ty in a mold-closed position to form a first number of hot hollow plastic articles in an injection molding cycle, preferably a plurality of first and second mold portions, and means for recipro-cating said mold portions from said mold-closed position to a mold open position forming a gap between said mold portions;

"` ' ' ! :
;~ ", .. ... . . . . ,, i ` . - ` . .
.. , , , , , : . ,: `, ` ,`.- . ,. ". , . ", : ,: : . ` . :, `
. '-: ,` '. ' ` ' '. . ` '. ' `
. . , ., `

, . - . ' , ` , , . ' ` ~ ` `

~ ~7~

a ~arrier plate havinq at least two sets of cavities t~erein, and preferably three sets of cavities, for cooling the hollow plastic articles, ~ith the number of cavities corresponding to a multiple o~ at least two times the number o hollow plastic articles produced in an injection moldin~ cycle means for moving the carrier plate into and out of said qap; means for aligning one set at a time of said carrier plate cavities to juxtapose said aligned set of cavities with the hollow _. 10 p~L stic articles formed in an injection_molfling cycle;
and means for transferring the hollow plastic articles to the juxtaposed cavities. Means are provided for removin~ the hollow plastic articles from a first set of carrier plate cavities at a position spaced from said gap after transfer of ~ollow pla~tic articles to a second set of carrier plate cavities from a second injection molding cycle.
In a preferred embodiment the sets of carrier plate cavities are spaced apart and the alignment means includes a plurality of projections spaced apart by a distance corresponding to the pacing of the sets of carrier plate cavities.
Thus, t~e apparatus of the presen~ invention effectively, economically and expeditiously provides a means to cool the injection molded, hollow plastic ,. ': ... , , : . :. . :- ' ..

.. . .. ..

- . ': - ' . .

. . . . . . .
.. . . .

3~ 7~-358 articles using a carrier plate or robot cooperating with the injection molding device ~ermit~ing the injection molding device to operate at virtually any effective operating cycle. ~he carrier plate is suitable for cooling ~roducts from a plurality of injection molding cycles and enables convenient discharge therefrom after the articles are coole~ sufficiently to be handled without incurring damage~ A highly advantageous rapid operating cycle results.
- _ln ~lrthQL-~Qa~ e~o the p esent invention will appear hereinbelow.

BRIEF DESCRIPTION OF THE DRAWINGS
The above and other features of the present invention will now be described in detail with reference to the accompanyin~ drawings in which:
Fig. 1 is a plan view of an apparatus for producing hollow plastic articles according to the present invention;
Fig. 2`is an end view of the mold cavity plate and the carrier plate in the direction of arrow "A" in Fig.
1, with the carrier plate in~the outboard po~ition or position spaced from the gap between the first and second mold portions;
Fig. 3 is an end vlew similar to FigO 2 showing the carrier plate in the discharge position; and `;` ' ' :'' .`'-.' , ,. ' ~ -.', ' .' .' ' : ', ,.
' ' : ' : : . , -: ,.: , : , ' - ~' ~ . , ' ~' :

-' ~
. . ~,~, . .

' ~ ' . . . . . :

7~5~

Fig~ 4 is a perspective view of the ~paced pro~ections of the carrier plate alignment means.

DETAILED D~SCRIPTION
Fig. 1 shows an apparatus for producing hollow plastic articles according to the present invention including a horizontal injection molding machine 10 comprising a multicavity machine. Naturally, the nuMber of cavities and the arrangement thereof shown in the dr-awi-ngs---a-r-e--exempligicative` and any convenient number _ _ of cavities and arrangement thereof may be employed.
Indeea, one may alsG use a single cavity arrangement, although multicavity arrangements are preferred for economic reasons.
Machine 10 includes a fir~t mola portion 11 which is a cavity half and a second mold portion 12 which is a core half. First mol~ port;on or cavity half 11 has at least one cavity 13 therein ana preferably a plurality of said cavities. A representative cavity arrangement i~ ~hown in Fi~. 2 which shows two (2) spaced row~ of cavities 13 with each row containing eig~t (8) cavities. Second mold portion or core half 12 has at least one elongate core 14 thçrein with the number of cores corresponding to the number of cavities. Cores 14 are each engagable with a respective cavity for ~eating 9 ~ , ' . ~, '' . ' . ., . ` :- .-.. .. - ~ . .:
- . . .~ - . . ~; , .
- , . .

- - .. - . , :, .. - . . . , . : , 3~9~a~3 therein in a mold-closed position to form a c]osed mold for the formation of a hollow plas~ic article therein by in~ection molding. The number of articles formed in an injection moldin~ cycle wil.l depend on the number of cavities an~ corresponding cores. Normally, the cores will reciprocate from a mold-closed position seated in said cavities for the formation of the hollow articles to a mold-open position spaced from said cavities forming a gap between t~e COleS ana cavities for ejection of the hollow articles. Fig. 1 shows the first and second mold portions in a mold-open position. the mold portions re~iprocate on tie rods 15 powered by any convenient motive means, as by hydraulic cylinder 16, in a pre-determined cycle. The plastic material is injected into the space formed between each core and cavity in the mold-closed position by known injection molding procedures.
It is preferred in accordance with the pre~ent invention to retain the formed hollow plastic articles on cores 14 after formation of the articles and upon reciprocation of the ~old portions from the mold-closed position to the mold-open position. Retention of the pla~tic articles on the cores will be aided by shrinkage of the part onto the core. Removal of the hollow articles from the cores onto the carrier pla~e 20 may be .
; , -. ... , :

'' ' ', ' `; :.

- - :, - , , : . ~ .. .
. ..
, . , .: . ~ . . :
: . .: ~ . : .

37~8 accomplished by simply hlowing air throuqh suction lines 17 and/or by the use o~ stripp~r plate 18 reciprocating on guide pins 19.
Carrier plate or cooled robot storage plate 20 is provided having at least two sets of cavities therein for cooling the hollow plastic articles. The number of cavities in carrier plate 20 corresponds to a multiple of the arrangement of cavities 13 of first mold portion 11 and are a multiple of at least two (2~ times the number of hollow plastic articles produced in an injection molding cycle. The embodiment shown in Fig. 2 includes a first set of carrier plate cavities 21 and a ~econd set of carrier plate cavities 22 and a third set of carrier plate cavities 23. Note that each of sets 21, 22 and 23 correspond to the arrangement of first mold portion cavities 13, with each of said sets being 3paced apart by a fi~ed distance~
It can be appreciated that the specific arrangement of first mold portion cavities 13 and sets 21, 22 and 23 are for purpo~es of illustration only and naturally many other arrangements can be readily used.
Thus, carrier plate 20 has a first set of cavities 21 identical in arrangemen~ to first mold portion cavities 13, with the ~ame positioning thereof. In addition, the first, second and third sets of carrier --11~

.: . : ......... . : . :.
- : . ,. : , ~ 7~5~ 86-348 plate cavities 21, 22 and 23 are ofset from the respective adjacent set by equal pitches. The first set of cavities 21 is offset from second se~ of cavities 22 by a first distance ~, and is offset from the third set of cavities 23 by a second distance C. The pitches B
and C are so arrang~d as to equally space ~he additional cavity arrangements in storage plate 20, wlth the additional sets of cavities being arranged in between the columns of the first set of cavities~ Although two additional sets of cavities are shown in Fig. 2, this is only for illustration purposes. Naturally, other embodiments can include only one additional set of carrier plate cavitie~ or several sets of carrier plate cavities depending upon the available space between the columns of cavities and particular requirements.
Figs. 1, 2 and 3 show carrier plate 20 in the outboard position or in the position spaced from the gap between the mold portions. Motive mean~ 30, shown schematically in Fig. 1, are provided for moving carrier plate 20 into and out of ~aid gap including slide 31 on which the carrier plate 20 is moved. Alignment means 32 i9 provided including a first portion thexeof 33 in fixed relationship to the carrier plate and moveable with the carrier plate into and out of said gap and a second portion 34 engagable with said first portion for .
.. . ~ . . . .
` . ~- , : ' . . . . .

.' : , ' '. : ' ~

7'3~

aligning one set 21, 22 or 23 at a time of said carriar plate cavities to juxtapose said aligned sat of cavities with the hollow plastic articles formed in an injection molding cycle. The alignm~nt means 32 is used to 5 control the inboard or receivinq position of the carrier plate 20 and carrier plate cavities 21, 22 or 23. The alignmen~ means comprises a means to programmably select one of several receiving positions depending upon the specific set of cavities in the 10 s~orage_plate that have been selectei to reaeive the __ _ _ _ _ hollow plastic articles from the mold. Fig. 4 shows the second portion 34 of a suitable alignment means or robot positioner 32 including a plurality of spaced apart projections 3S, 36 and 37 spaced apart by a distance lS corresponding to the spacing of the sets of carrier plate cavities 21, 22 and 23. Thus, projections 35, 36, and 37 are of different lengths with the differences between the lengths corresponding to distances or pitches B and C of Fig. 2 showing the distances between the first and second sets of carrier plate cavities 21 and 22 and the first and third sets of carrier plate cavities 21 and 23, First alignment portion 33 includes end stop 38 enqagable with one of projections 35, 36 or 37 of second alignment portion 34 80 that alignment means 32 will StOp carrier plate 20 at the receiving :., , :., '; ~, -, :

~ 3~7~5~3 position which corresponds to the desired carrier plate ca~ity, e.g., projection 37 will stop carrier plates so that cavities 21 are aligned with first mold portion cavities 13 and cores 14 and the e~ected hollow plastic articles will be loaded into cavity 21. ~y ro~ating second alignment portion 34, as for example in the direction o~ arrow D with motive means 30 coordinated with the movement of carrier plate 2n, tha appropriate aliqnment projaction can be positioned to stop carrier _ _. 10 pla e 20 at the ap ropriate position on its next cvcle.
Thus, first projection 37 is longer than second projection 36 by an amount equal to distance B so that when first projection 37 is selected to engage end stop 38 first set of cavities 21 will be aligned with mold core 14 so that the hollow plastic article to be cooled will be aligned with said first set of carrier plate cavities 21. Similarly, by selecting ~econd spaced projection 36, the second set of carrier plate cavities 22 will be aligned with mold core 14 for loading a second set of hollow plastic articles produced by a second injection molding cycle into second set 22.
Naturally, any convenient method may be selected for positionin~ carrier plate 20 in the gap between the first and second mold positions, or e~ample by means of electrical DC servo drives. Controlling the drives by :
: ` . . ` . ,. . , - ~, `' ' . , ' .: : ....... ' , . ,, ` , ~ `` . ` :

~ ~7~S~
~6-348 means of a micropxocessor program causes the carrier plate to be positione~ in differen~ locations on the subsequent cycles.
The hollow plastic articles will tran~fer to the appropriate carrier plate cavities from mold cores 14 or from mold cavities 13, as for example with stripper plate 18. When one set of cavities, as set 21, in the carrier plate are filled with a set of hollow plastic articles corresponding to those produced in one _ - _ lO~ LjectiQn_mQLdix~L~ycLe~_~h~_ca~XiQ~ ov~-h2-a position spaced from the first and second mold positions and a second injection molding cycle is performed. The procedure is repeated and the hollow plastic articles produced in the second injection molding cycle are lS loaded into a second set of carrier plate cavities 22 for cooling in a manner similar to those loaded in the first cycle. The procedure is repeated for a third time whereupon those hollow plastic articles loaded in first set 21 have resided in carrier plate 20 for a period of time corresponding to the time necessary to load the three set~ of hollow plastic article~ into the carrier plate. Carrier plate 20 is provided with cooling passages 40 whic~ may contain cooling fluid circulating therein for cooling the hollow~pla~tic articles 41 held in the carrier ~late. Carrier plate cavitie~ 21, 22 and .
.

.`. ` ~ ' ' ' . ~, . :
~ , , , : .

.

79~;~

23 may be connected to a source of fluid via passages 42 to aid in retention and ejection of the cooled hollow plastic articles 41.
Thus, when all the cavities in the carrier plate are filled with hollow plastic articles for cooling, those hollow plastic articles which were first loaded and have been subject to cooling the longest are discharged into an appropriate discharge receptacle, as for example, conveyor 43 spaced beneath carrier 20 in the outboard position. Preferably, a pallet system is used as disc'losed in the aforesaid U.S. Patent 4,690,633 in order to maintain orientation of the preform to the next operation. In order to discharge, carrier plate 20 may be rotated through 90 by any desired motive means, as motive means 30, to orient the hollow plast'ic articles into a vertical plane so that they will be transferred to conveyor 43 below.
The appropriate fluid transfer line 42 may be used to project the hollow plastic articles 41 from the appropriate set of carrier plate cavities onto con-veyor 43. On the next eyele, carrier plate 20 is stopped by alignment means 32 in sueh~ a receiving position that the next set of hollow plastic arti'cles is loaded into the set of carrier plate cavities just vacated.

:, ': -. .
-' ,' ''-,'. ~ . ' ,, , , ' ~ ' ~

.

By operating the carrier plate in this way, the hollow plastic articles can be stored in the carrier plate for the same number of cycles as there are sets of cavities in the carrier plate, thus providing suffj.cient additional cooling of the hollow plastic articles so that upon discharge they will not incur damage from further handlin~.
If desired, each set of carrier plate cavities 21, 22 and 23 can be provided with tapered walls which match the taper in the coxresponding mold cavity as describèd in aforementioned corresponding U.S. Patent ~,690,633. Channels 42 are connected to the appropriate carrier plate cavities and to a source of vacuum (not. shown) which is independently controllable for each set of carrier plate cavities. The operation of the lines 42 are coordinated through an appropriate central control means to insure that the hollow plastic articles are loaded into the storage plate cavities which are empty and held therein as long as necessary and are removed therefrom in the appropriate t.ime.
The hollow plastic articles are therefore held in the appropriate storage plate cavities by the constant applicati.on of vacuum. If desired, they can simply be ` ~17-:, . . ~ : . , ; ' ~ - , .'. ' . ' - ' ' .'~ ~: .

3795~
~-348 held therein by gravity and the cooling will be sufficient to insure the appropriate advantages o the present invention. However, vacuum hold will give pre~erred results. As the hollow plastic articles cool anfl shrink, their outer diameter is reduced and the vacuum causes the article to be drawn further in~o the cavity maintaining its contact with the cooled storage plate and further maintaining the shape of the hollow plastic article. It is possible that the hollow plastic articles will stick in the cavity due to the action of the taper. Typically, the taper is less than 7 included. This problem may be solved by removing the vacuum in the appropriate set of carrier plate cavities at the appropriate discharge time for said set and thereby subJecting the set to the force of gravi~y. If desired, the source of vacuum for the appropriate set may be replaced by a source of pressurized fluid to forcibly eject the appropriate set of hollow plastic article~ from the storage plate cavity. This switching of vacuum to pressurized fluid may be achieved by known means and can be controlled by a programmable valve in a manner similar to-controlling channels 17 in cores 14, if used, as describéd above.
It is to be understood that the invention is not limited to the illustrations described and shown herein, .
. . - , - : .:

.: - , . . . . .

86-34~

which are deemed to be merely illustrative of the best modes of carrying out the invention, and which are susceptible of modification of form, size, arrangement of parts and details of operation. The invention rather is intended to encompass all such modifications which are within its spirit and scope as defined by the claims.

_ _

Claims

Claim 1. An apparatus for producing hollow plastic articles which comprises:
an injection molding machine including a first mold portion having at least one cavity therein and a second mold portion having at least one elongate core seating in said cavity in a mold-closed position to form a first number of hot hollow plastic articles in an injection molding cycle, and means for reciprocating said mold portions from said mold-closed position to a mold-open position forming a gap between said mold portions;
a carrier plate having at least two sets of cavities therein for cooling said hollow plastic articles, with the number of cavities corresponding to a multiple of at least two times the number of hollow plastic articles produced in an injection molding cycle;
means for moving the carrier plate into and out of said gap:
means for aligning one set at a time of said carrier plate cavities to juxtapose said aligned set of cavities with said hollow plastic articles formed in an injection molding cycle; and means for transferring said hollow plastic articles to said juxtaposed cavities.
Claim 2. An apparatus according to claim 1 including means for removing the hollow plastic articles from a first set of carrier plate cavities at a position spaced from said gap after transfer of hollow plastic articles to a second set of carrier plate cavities.
Claim 3. An apparatus according to claim 1 including three sets of carrier plate cavities corresponding to a multiple of three times the number of hollow plastic articles produced in an injection molding cycle and corresponding to the configuration of said first mold portion cavities.
Claim 4. An apparatus according to claim 1 including a plurality of mold portions for forming a plurality of hollow plastic articles in an injection molding cycle and a plurality of carrier plate cavities corresponding to a multiple of at least two times the number of hollow plastic articles produced in an injection molding cycle.
Claim 5. An apparatus according to claim 1 including means to transfer the hollow plastic articles to said elongate core from said mold cavity to leave the hollow plastic articles on said elongate core in the mold-open position.
Claim 6. An apparatus according to claim 1 wherein said sets of carrier plate cavities are spaced apart and wherein said alignment means includes a plurality of projections spaced apart by a distance corresponding to the spacing of said sets of carrier plate cavities.
7. An apparatus for producing hollow plastic articles which comprises:
an injection molding machine including a first mold portion having at least one cavity therein and a second mold portion having at least one elongate core seating in said cavity in mold-closed position to form a first number of hot hollow plastic articles in an injection molding cycle, and means for reciprocat-ing said mold portions from said mold-closed position to a mold-open position forming a gap between said mold portions;
carrier plate means having at least two sets of cavities therein for cooling said hollow plastic articles, with the number of cavities corresponding to a multiple of at least two times the number of hollow plastic articles produced in an injection molding cycle;
means for moving the carrier plate means into and out of said gap;
means for aligning one set at a time of said carrier plate means cavities to juxtapose said aligned set of cavities with said hollow plastic articles formed in an injection molding cycle; and means for transferring said hollow plastic articles to said juxtaposed cavities.

#19-09/05/1990